View point evaluation and streamline filtering for flow visualization

2011 IEEE Pacific Visualization Symposium Pub Date : 2011-03-01 DOI:10.1109/PACIFICVIS.2011.5742376

Teng-Yok Lee, O. Mishchenko, Han-Wei Shen, R. Crawfis

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引用次数: 73

Abstract

Visualization of flow fields with geometric primitives is often challenging due to occlusion that is inevitably introduced by 3D streamlines. In this paper, we present a novel view-dependent algorithm that can minimize occlusion and reveal important flow features for three dimensional flow fields. To analyze regions of higher importance, we utilize Shannon's entropy as a measure of vector complexity. An entropy field in the form of a three dimensional volume is extracted from the input vector field. To utilize this view-independent complexity measure for view-dependent calculations, we introduce the notion of a maximal entropy projection (MEP) framebuffer, which stores maximal entropy values as well as the corresponding depth values for a given viewpoint. With this information, we develop a view-dependent streamline selection algorithm that can evaluate and choose streamlines that will cause minimum occlusion to regions of higher importance. Based on a similar concept, we also propose a viewpoint selection algorithm that works hand-in-hand with our streamline selection algorithm to maximize the visibility of high complexity regions in the flow field.

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视点评估和流线过滤流可视化

由于三维流线不可避免地引入遮挡，使用几何基元的流场可视化通常具有挑战性。在本文中，我们提出了一种新的视图依赖算法，该算法可以最小化遮挡并揭示三维流场的重要流动特征。为了分析更重要的区域，我们利用香农熵作为向量复杂度的度量。从输入向量场中提取出三维体积形式的熵场。为了利用这种与视图无关的复杂性度量来进行与视图相关的计算，我们引入了最大熵投影(MEP)帧缓冲区的概念，它存储了给定视点的最大熵值以及相应的深度值。利用这些信息，我们开发了一种依赖于视图的流线选择算法，该算法可以评估和选择对更重要的区域造成最小遮挡的流线。基于类似的概念，我们还提出了一种视点选择算法，该算法与我们的流线选择算法携手工作，以最大限度地提高流场中高复杂性区域的可见性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 IEEE Pacific Visualization Symposium

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